Redox and ion-adsorbtion electrodes and energy storage devices

What is claimed is: 1. An energy storage device comprising: a first electrode comprising: a layered double hydroxide; a three-dimensional graphene based conductive scaffold; and a first current collector; a second electrode comprising: a hydroxide; and a second current collector; a separator; and an electrolyte; wherein the energy storage device stores energy through both redox reactions and ion adsorption; and wherein the layered double hydroxide comprises a metallic layered double hydroxide comprising a zinc-based layered double hydroxide, an iron-based layered double hydroxide, an aluminum-based layered double hydroxide, a chromium-based layered double hydroxide, an indium-based layered double hydroxide, a manganese-based layered double hydroxide, or any combination thereof. 2. The energy storage device of claim 1 , wherein the redox reaction occurs at the first electrode and comprises at least one of a redox reaction of zinc hydroxide and a redox reaction of iron hydroxide. 3. The energy storage device of claim 1 , wherein the redox reaction occurs at the second electrode and comprises a redox reaction of nickel hydroxide. 4. The energy storage device of claim 1 , wherein the ion adsorption occurs at the electrolyte and comprises an ion adsorption of zinc oxide. 5. The energy storage device of claim 1 , wherein the layered double hydroxide comprises a metallic layered double hydroxide comprising a zinc-iron layered double hydroxide, an aluminum-iron layered double hydroxide, a chromium-iron layered double hydroxide, an indium-iron layered double hydroxide, a manganese-iron layered double hydroxide, or any combination thereof. 6. The energy storage device of claim 1 , wherein the three-dimensional graphene based conductive scaffold comprises conductive foam, conductive aerogel, graphene foam, graphite foam, graphene aerogel, graphite aerogel, or any combination thereof. 7. The energy storage device of claim 1 , wherein the electrolyte comprises an aqueous alkaline electrolyte comprising a strong base and a conductive additive. 8. The energy storage device of claim 7 , wherein the conductive additive comprises sodium (I) oxide, potassium (I) oxide, ferrous (II) oxide, magnesium (II) oxide, calcium (II) oxide, chromium (III) oxide, copper (I) oxide, zinc (II) oxide, cuprous chloride, cadmium phosphide, cadmium arsenide, cadmium antimonide, zinc phosphide, zinc arsenide, zinc antimonide, cadmium selenide, cadmium sulfide, cadmium telluride, zinc selenide, zinc sulfide, zinc telluride, zinc oxide, or any combination thereof. 9. The energy storage device of claim 7 , wherein the strong base comprises lithium hydroxide, sodium hydroxide, potassium hydroxide, rubidium hydroxide, cesium hydroxide, magnesium hydroxide, calcium hydroxide strontium hydroxide, barium hydroxide, or any combination thereof. 10. The energy storage device of claim 1 , having a charge rate of at least about 10 C. 11. The energy storage device of claim 1 , having a recharge time of at most about 1 hour. 12. The energy storage device of claim 1 , having a cell-specific capacity of at least about 2,500 mAh. 13. The energy storage device of claim 1 , having an active material specific energy density of at least about 400 Wh/kg. 14. The energy storage device of claim 1 , having a total power density of at least about 30 kW/kg.